CN214480196U - Card sender motor line feeding device - Google Patents

Abstract

The application relates to a card sender motor line termination, it includes the support body and sets up two sets of feed mechanism on the support body, feed mechanism is including setting up in the last flitch of support body top, drive end of a thread towards the material loading driving piece that anchor clamps removed and the material loading spare that promotes end of a thread rebound, the material loading spare is located the one end that the flitch is close to anchor clamps, and the end of a thread can hang and locate go up the flitch upper end. This application utilizes and goes up the flitch and remove the end of a thread to material loading spare department, and material loading spare shifts up and removes the end of a thread to anchor clamps in, and the process of end of a thread material loading no longer need the manual work to go on this moment, makes the process of material loading more convenient.

Description

Card sender motor line feeding device

Technical Field

The application relates to the field of processing equipment of a card sending motor, in particular to a card sending motor on-line device.

Background

The hairpin motor is also called as a flat wire motor, and a stator of the hairpin motor needs to be produced by mutually embedding a wire a and a wire b which are different in size but are all U-shaped in the production process and then simultaneously inserting the wires into a groove on an iron core.

Because the processing technology of the card-issuing motor is complex and is not easy to realize automatic production, at present, the embedding of a line and a line b is a semi-automatic operation that the line heads are usually manually placed in a clamp and then the clamp applies force to the line a and the line b to enable the line a and the line b to be embedded.

In view of the above related technologies, the inventor thinks that the process of manually loading the line a and the line b in the current automated production process is slow and is difficult to adapt to the speed of automated production.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to make the process of stub material loading to anchor clamps can go on automatically, increase the material loading efficiency of stub, this application provides a hairpin machine on-line device.

The application provides a pair of card sender machine online device adopts following technical scheme:

the utility model provides a hairpin machine on-line loading attachment, includes the support body and sets up two sets of feed mechanism on the support body, feed mechanism is including setting up in the last flitch of support body top, drive end of a thread towards the material loading driving piece that anchor clamps removed and promote the material loading spare of end of a thread rebound, the material loading spare is located the one end that the flitch is close to anchor clamps, and the end of a thread can hang and locate go up the flitch upper end.

Through adopting above-mentioned technical scheme, utilize and go up the flitch and remove the stub bar to material loading spare department, material loading spare shifts up and removes the stub bar to anchor clamps in, the process of stub bar material loading no longer need the manual work to go on this moment, makes the process of material loading more convenient.

Optionally: the support body is connected with the drive mechanism who drives the vertical reciprocating motion of material loading spare, drive mechanism includes along the slider of support body vertical movement, be fixed in the motor of support body, be fixed in the first connecting rod of the output shaft of motor and rotate the second connecting rod of connecting in the slider, the one end that the slider was kept away from to the second connecting rod rotates and connects in the one end that the motor output shaft was kept away from to first connecting rod, the material loading spare is fixed in the slider.

Through adopting above-mentioned technical scheme, the motor drives first connecting rod and rotates, utilizes the cooperation of first connecting rod and second connecting rod to realize the vertical removal of slider to realize the material loading of end of a thread.

Optionally: the upper end of the upper material plate is provided with a guide plate, and a gap through a single thread end is reserved between the lower end of the guide plate and the upper end of the upper material plate.

Through adopting above-mentioned technical scheme, difficult production is piled up between the adjacent end of a thread when utilizing the deflector, and the condition of two end of a thread of disposable material loading is difficult to appear at the in-process of material loading this moment to the material loading process that makes the end of a thread is more stable.

Optionally: the one end that the material loading spare was kept away from to the deflector is provided with the guide board, the one end tilt up that the deflector was kept away from to the guide board.

Through adopting above-mentioned technical scheme, utilize and guide the removal of the end of a thread on the flitch with the guide board, make the end of a thread that vertically beats still can get into between deflector and the last flitch, make the material loading process of end of a thread be difficult for receiving the influence.

Optionally: the end face of the feeding part close to the feeding plate is provided with a feeding groove matched with the thread end, the feeding groove penetrates through the upper end face of the feeding part and the vertical side wall parallel to the thread end conveying direction, and the thread end can be embedded in the feeding groove.

Through adopting above-mentioned technical scheme, utilize the material loading groove to inject the position of end of a thread on the material loading spare, make the material loading spare be difficult for dropping at the in-process end of a thread that carries out the material loading to the end of a thread to make the material loading process of end of a thread more stable.

Optionally: the support body still is connected with the locating piece that leads to the material loading spare, the terminal surface butt that the terminal surface of terminal is kept away from with the material loading spare to the locating piece is close to the terminal surface.

Through adopting above-mentioned technical scheme, utilize the locating piece to lead the route of the vertical removal of material loading spare, make the material loading spare keep vertical state at the in-process that removes to the material loading process that makes the end of a thread is more stable.

Optionally: the material loading device is characterized in that a baffle is further arranged at the upper end of the material loading plate, a gap passing through a single thread end is reserved between the baffle and the material loading plate, the lower end face of the baffle is flush with the lower end face of the guide plate, a limiting groove allowing the single thread end to pass through is formed in the end face, far away from the guide plate, of the baffle, the limiting groove penetrates through the upper end face and the lower end face of the baffle, and the end face, close to the thread end, of the material loading part is kept in abutting joint with the end face, close to the guide plate, of the limiting groove.

Through adopting above-mentioned technical scheme, utilize the baffle to restrict the quantity of the rebound of end of a thread, make the material loading spare only can the material loading one at every turn when carrying out the material loading to the end of a thread to make the material loading process of end of a thread more stable.

Optionally: the second connecting rod is connected in the first branch of slider, rotates the second branch of connecting in first connecting rod and the thread bush of connecting both including rotating, thread bush threaded connection is in first branch and second branch simultaneously, the screw thread that first branch and second branch and thread bush are connected is turned around to the opposite direction.

Through adopting above-mentioned technical scheme, utilize the cooperation of first branch and second branch and thread bush to adjust the length of second connecting rod to make the material loading spare can carry out the material loading operation to the end of a thread of unidimensional not, increased the application scope of needle threader.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is a schematic view for showing a positioning structure of a feeding member according to an embodiment of the present application.

In the figure, 1, a frame body; 11. a support bar; 12. mounting a plate; 13. an extension plate; 14. a guide plate; 141. a guide plate; 15. positioning blocks; 151. positioning a groove; 16. a baffle plate; 161. a limiting groove; 2. a feeding mechanism; 21. feeding plates; 22. a feeding driving member; 23. feeding parts; 231. a feeding trough; 3. a drive mechanism; 31. a slider; 32. a motor; 33. a first link; 34. a second link; 341. a first support bar; 342. a second support bar; 343. and (4) a threaded sleeve.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The application discloses an online traditional thread binding putting of hairpin machine, as shown in fig. 1 and fig. 2, including support body 1 and set up two sets of feed mechanism 2 on support body 1, two sets of feed mechanism 2 carry out the material loading to a line and b line respectively. The feeding mechanism 2 comprises a feeding plate 21 vertically arranged at the upper end of the frame body 1, a feeding driving part 22 for driving the thread end to move towards the fixture, and a feeding part 23 for pushing the thread end to move upwards to enter the fixture, wherein the feeding part 23 is positioned at one end of the feeding plate 21 close to the fixture. The bolt fastening has a plurality of bracing pieces 11 on 1 upper end of support body, and 11 upper ends of bracing piece use bolt and last flitch 21 fixed connection, and material loading driving piece 22 is vibrating motor 32, and vibrating motor 32 upper end and the use bolt fastening of last flitch 21 lower extreme, and vibrating motor 32's lower extreme and support body 1 use the bolt fastening, and the whole tilt up of one end that anchor clamps were kept away from to last flitch 21 simultaneously, and the opening of end of a thread is down and hang and locate the flitch 21 top of going up. At this time, the vibrating motor 32 is used for driving the thread end to move to be in contact with the feeding part 23, the feeding part 23 moves upwards, so that the thread end is pushed into the clamp, and automatic feeding of the thread end is achieved.

As shown in fig. 2, the mounting plate 12 is fixed to the upper end of the frame body 1 by using bolts, the mounting plate 12 is connected with a driving mechanism 3 for driving the feeding member 23 to vertically reciprocate, the driving mechanism 3 comprises a sliding block 31 vertically moving along the side wall of the mounting plate 12, a motor 32 fixed to the mounting plate 12 by using bolts, a first connecting rod 33 fixed to an output shaft of the motor 32 by using bolts and a second connecting rod 34 rotatably connected to the sliding block 31, one end of the second connecting rod 34 far away from the sliding block 31 is connected with one end of the first connecting rod 33 far away from the output shaft of the motor 32, the motor 32 is used for driving the sliding block 31 to vertically move, and therefore the feeding member 23 is vertically reciprocated.

As shown in fig. 2, because the diameters of different thread ends are different, the distance that the feeding member 23 needs to move upward is also different, so the second connecting rod 34 includes a first supporting rod 341 rotatably connected to the slider 31, a second supporting rod 342 rotatably connected to the first connecting rod 33, and a threaded sleeve 343 connecting the first supporting rod and the second supporting rod, one end of the first supporting rod 341 away from the slider 31 is inserted into one end of the threaded sleeve 343, one end of the second supporting rod 342 away from the first connecting rod 33 is inserted into the other end of the threaded sleeve 343, both the first supporting rod 341 and the second supporting rod 342 are in threaded connection with the threaded sleeve 343, and the rotation directions of the threads connected with the threaded sleeve 343 are opposite. At this time, after the diameter of the end of thread to be fed is changed, the thread bushing 343 is rotated to adjust the overall length of the second link 34, so that the distance of upward movement of the feeding member 23 can be adjusted, thereby feeding the end of thread of different sizes.

As shown in fig. 2, in the process of moving the thread end on the feeding plate 21, the thread end located at the rear end can be clamped in the thread end in front, and at this time, the two thread ends can be driven to move upwards in the process of driving the thread end to move upwards by the feeding part 23, so that the normal feeding of the thread end is affected. Therefore, the extension plates 13 are fixed on two sides of the mounting plate 12 through bolts, gaps through which thread ends pass are reserved between the extension plates 13 and the feeding plate 21, the guide plates 14 are integrally formed at the upper ends of the two extension plates 13, gaps through which the thread ends pass are reserved between the lower end faces of the guide plates 14 and the upper end faces of the feeding plate 21, the thread ends clamped with each other cannot pass below the guide plates 14 through the guide plates 14 by means of the guide plates 14, the two thread ends are not pushed upwards at the same time in the feeding process of the feeding piece 23, and the thread end feeding process to the clamp is not affected easily.

As shown in fig. 2, in the process of driving the thread end to move along the feeding plate 21 by using the vibration motor 32, the thread end may generate vertical bounce, and at this time, the thread end may be influenced to pass through between the guide plate 14 and the feeding plate 21, so that the guide plate 141 is integrally formed at one end of the guide plate 14 far from the feeding part 23, one end of the guide plate 141 far from the feeding plate 21 inclines upward, and at this time, the thread end is guided by the inclined-upward guide plate 141, so that the thread end is more easily inserted between the guide plate 14 and the feeding plate 21.

In order to make material loading member 23 at the in-process that promotes end of a thread rebound, the end of a thread is difficult for dropping from material loading member 23, material loading member 23 is close to the terminal surface of last flitch 21 and offers the last silo 231 with the end of a thread cooperation and be the U type that leads to, it runs through material loading member 23 up end and be on a parallel with end of a thread direction of delivery and be two vertical lateral walls to go up silo 231, the end of a thread can inlay and locate in material loading silo 231, and the inner wall of material loading silo 231 can laminate with the lateral wall of end of a thread. Utilize spacing groove 161 to inject the position of end of a thread this moment, make material loading spare 23 at the in-process of vertical movement, the end of a thread is difficult for breaking away from with material loading spare 23, makes the process of end of a thread material loading more stable.

As shown in fig. 3, in order to make the feeding member 23 keep contact with the feeding plate 21, the positioning block 15 is integrally formed at the upper end of the mounting plate 12, the positioning groove 151 is formed in the side wall of the positioning block 15 close to the feeding plate 21, the positioning groove 151 penetrates through the upper end face and the lower end face of the positioning block 15, the feeding member 23 is embedded in the positioning groove 151 to move vertically, the side wall of the feeding member 23 is abutted to the vertical side wall of the positioning groove 151, the position of the feeding member 23 is limited by the positioning groove 151, the overall position of the feeding member 23 cannot be changed in the using process due to design, and therefore the feeding process of a thread end is kept stable.

As shown in fig. 3, in the process that the feeding member 23 drives the thread ends to move upwards, the situation that adjacent thread ends are simultaneously driven to move upwards still can be influenced, so that the baffle 16 is fixed on the end surface of the positioning block 15 close to the guide plate 14 by using bolts, and a gap passing through a single thread end is left between the baffle 16 and the feeding plate 21. One end of the baffle 16 far away from the positioning block 15 is abutted against the guide plate 14, and the lower end of the baffle 16 is flush with the lower end of the guide plate 14. Limiting groove 161 has been seted up to the baffle 16 near the terminal surface of locating piece 15, and limiting groove 161 runs through two upper and lower terminal surfaces of baffle 16, and the part of material loading piece 23 is inlayed and is located limiting groove 161, and material loading piece 23 is close to the lateral wall butt that the lateral wall of deflector 14 and limiting groove 161 are close to deflector 14. At this time, the baffle 16 is used for limiting the upward movement quantity of the thread end, so that the thread end can only be singly moved in the upward movement process, and the thread end feeding process is more stable.

The implementation principle of the embodiment is as follows: the U-shaped thread ends are arranged on the feeding plate 21, then sequentially pass through the lower portions of the guide plate 14 and the baffle plate 16 under the driving of the vibration motor 32, then enter the feeding groove 231, the output shaft of the motor 32 rotates to drive the feeding part 23 to move upwards, so that the thread ends in the feeding groove 231 move upwards and enter the clamp, and then the feeding part 23 continuously reciprocates to realize continuous feeding of the thread ends.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a hairpin machine line winding device which characterized in that: including support body (1) and set up two sets of feed mechanism (2) on support body (1), feed mechanism (2) are including setting up in last flitch (21) of support body (1) top, drive end of a thread towards material loading driving piece (22) that anchor clamps removed and promote end of a thread rebound material loading spare (23), material loading spare (23) are located flitch (21) one end near anchor clamps, and the end of a thread can be hung and locate go up flitch (21) upper end.

2. The on-line device of a card-issuing motor according to claim 1, characterized in that: support body (1) is connected with drive loading piece (23) vertical reciprocating motion's actuating mechanism (3), actuating mechanism (3) include along support body (1) vertical motion's slider (31), be fixed in motor (32) of support body (1), be fixed in first connecting rod (33) and the rotation of the output shaft of motor (32) and connect in second connecting rod (34) of slider (31), the one end that slider (31) were kept away from in second connecting rod (34) rotates and connects in the one end that motor (32) output shaft was kept away from in first connecting rod (33), loading piece (23) are fixed in slider (31).

3. The on-line device of a card-issuing motor according to claim 1, characterized in that: the upper end of the feeding plate (21) is provided with a guide plate (14), and a gap passing through a single thread end is reserved between the lower end of the guide plate (14) and the upper end of the feeding plate (21).

4. The on-line device of a card-issuing motor according to claim 3, characterized in that: the one end that the deflector (14) kept away from material loading spare (23) is provided with guide plate (141), the one end that deflector (141) kept away from deflector (14) upwards inclines.

5. The on-line device of a card-issuing motor according to claim 1, characterized in that: the end face of the feeding part (23) close to the feeding plate (21) is provided with a feeding groove (231) matched with the thread end, the upper end face of the feeding part (23) and the thread end parallel to the thread end conveying direction are penetrated through by the feeding groove (231), and the thread end can be embedded in the feeding groove (231).

6. The on-line device of a card-issuing motor according to claim 1, characterized in that: the support body (1) is further connected with a positioning block (15) for guiding the feeding piece (23), and the end face of the positioning block (15) close to the thread end is abutted to the end face of the feeding piece (23) far away from the thread end.

7. The on-line device of a card-issuing motor according to claim 3, characterized in that: go up flitch (21) upper end and still be provided with baffle (16), leave the clearance through single end of a thread between baffle (16) and last flitch (21), terminal surface and deflector (14) terminal surface parallel and level under baffle (16), the terminal surface that deflector (14) were kept away from in baffle (16) is seted up and is allowed single end of a thread to pass through spacing groove (161), spacing groove (161) run through the upper and lower both ends face of baffle (16), the terminal surface that material loading spare (23) are close to the end of a thread keeps the terminal surface butt that is close to deflector (14) with spacing groove (161).

8. The on-line device of a card-issuing motor according to claim 2, characterized in that: the second connecting rod (34) comprises a first supporting rod (341) rotatably connected to the sliding block (31), a second supporting rod (342) rotatably connected to the first connecting rod (33) and a threaded sleeve (343) connecting the first supporting rod and the second supporting rod, the threaded sleeve (343) is simultaneously in threaded connection with the first supporting rod (341) and the second supporting rod (342), and the thread screwing directions of the first supporting rod (341) and the second supporting rod (342) connected with the threaded sleeve (343) are opposite.

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